This is a report summarizing your results. As you read, you have to run the code inside each block byclicking on it and pressing Shift+Enter (or clicking the run button in the toolbar above).
Here you can see which parts of your query sequence we found covered by experimentally resolved structures (in blue) and covered by models (in orange). If you have introduced your own structures or models, wou yill find them here too.
Flexibility is an important feature of proteins, since they need to move to perform their function and interact with their substrates. In the following section, we provide you with two types of flexibility prediction: the Dynamic Flexibility Index and Hinge Prediction.
Dynamic Flexibility Index
This is per-residue index indicating the contribution of each residue to the overall flexibility of the protein. It uses a method based in an Elastic Network Model, which is a more lightweight (but less precise, obviously) alternative to Molecular Dynamics. for ore info, here is the original paper.
Hinge Prediction
Hinges are the regions of the protein that allow it to move and change conformations. Using this tool the predicted hinge regions are showed on top of the DFI plot, with the significative ones colored in green, and the non-significative ones in red.